Single-Cell RNA Sequencing (scRNA-seq)
Gentaur Single-Cell RNA Sequencing (scRNA-seq) makes it possible to look at gene expression cell by cell. Instead of averaging signals across thousands of cells, this method shows the differences that matter—rare cell types, shifts in activity, or unexpected patterns. In practice, many labs use scRNA-seq to study immune responses, brain cells, cancer samples, and developmental biology. The workflow is straightforward, with clear steps for RNA capture and library prep, so researchers spend less time troubleshooting and more time on results. By giving a sharper view of cellular diversity, scRNA-seq has become one of the most useful tools in modern biology.
AMM00304G
Monoclonal Involucrin (Squamous Cell Terminal Differentiation Marker) Antibody - Without BSA and Azide, Clone: SY5
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AMM00305G
Monoclonal Involucrin (Squamous Cell Terminal Differentiation Marker) Antibody - With BSA and Azide, Clone: SPM259
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AMM00942G
Monoclonal Involucrin (Squamous Cell Terminal Differentiation Marker) Antibody, Clone: SY5
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AMM00943G
Monoclonal Involucrin (Squamous Cell Terminal Differentiation Marker) Antibody, Clone: SPM259
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AMM00306G
Monoclonal Involucrin (Squamous Cell Terminal Differentiation Marker) Antibody - Without BSA and Azide, Clone: SPM259
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AMM00946G
Monoclonal Involucrin (Squamous Cell Terminal Differentiation Marker) Antibody - Without BSA and Azide, Clone: IVRN/827
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AMM00944G
Monoclonal Involucrin (Squamous Cell Terminal Differentiation Marker) Antibody, Clone: IVRN/827
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AMM00945G
Monoclonal Involucrin (Squamous Cell Terminal Differentiation Marker) Antibody - With BSA and Azide, Clone: IVRN/827
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AMM00187G
Monoclonal Involucrin (Squamous Cell Terminal Differentiation Marker) Antibody - With BSA and Azide, Clone: SY5
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